JP3180721U - Hydroponics liquid supply equipment - Google Patents

Abstract

To provide a hydroponic liquid supply apparatus that operates redundantly without losing moisture and nutrients necessary for a cultivated product and circulates a nutrient solution.
A hydroponics liquid supply apparatus includes at least a board body 10, a liquid supply base 20, and a motor 30. Among them, the board 10 has a storage space in which the liquid supply base 20 is installed. In addition, the liquid supply base 20 is provided with a first ridge 21 to form a liquid supply section 22 and an introduction section 23 that communicate with each other, and the liquid supply section 22 includes a plurality of second ridges 221 arranged in a crossing manner. Thus, a liquid supply flow path 222 is formed. A water collection area 25 is installed in the board 10, and the liquid supply area 22 and the introduction area 23 are provided with stepped surfaces, and a motor 30 connects the water collection area 25 and the liquid supply area 22 to send nutrient solution. .
[Selection] Figure 1

Description

  The present invention relates to a hydroponic cultivation apparatus, and more particularly, to a hydroponic liquid supply apparatus that repeatedly operates without supplying water and nutrients supplied to a cultivated product and circulates a nutrient solution.

In publicly known large cultivating fields, open type flat soil farming is generally used. This requires a large area and is susceptible to the influence of the weather, so the production volume is also unstable and it is also susceptible to contamination by exotic organisms. Furthermore, known soil tillage systems are not suitable for urban residents. As a result, hydroponics methods have become very popular recently, and people who are restricted by the living environment can now make vegetables for their families in vacant spaces. The advantage of this is that it is not necessary to eat the residual agricultural chemical vegetables sold in the market, and secondly, the vegetables can be enjoyed and the cost for enjoyment can be reduced.

Cultivation of crops can provide stable and high-quality crops mainly by controlling energy sources necessary for the growth of crops such as light, water, oxygen, etc. in related facilities. In order to increase the yield of crops, the use of hydroponics space is simpler than the known soil culture, but in principle the root part is always immersed in nutrient solution for hydroponics. It is.

Furthermore, sunshine and water are very important factors for the growth of plant cultivation, the growth of plants almost affects their action, and the sunshine conditions particularly affect the growth of plants. Since daily water supply work takes time and effort, it is important for plant growth based on how plants grow.

The problem to be solved is that daily water supply work takes time and effort.

  The present invention includes at least a board, a liquid supply base, and a motor. Among them, the board has a storage space in which a liquid supply base is installed. The liquid supply base is provided with a first ridge to form a liquid supply zone and an introduction zone that are in communication with each other, and the liquid supply zone has a plurality of second ridges installed in a crossed manner to establish a liquid supply flow path. Form. The main feature is that a catchment area is installed in the body, the liquid supply area and the introduction area have stepped surfaces, and the motor sends nutrient solution by connecting the catchment area and the liquid supply area respectively. .

The hydroponics liquid supply apparatus of the present invention has the following advantages.
1. The nutrient solution is not lost by forming a fluid circulation circuit by the catchment area, the liquid supply area and the introduction area in the body, and operating the nutrient solution sufficiently.
2. The flowing nutrient solution in the liquid supply flow path moderates the nutrient solution flow rate by the second ridges installed in an interlaced manner.
3. The nutrient solution that gently flows in the liquid supply zone naturally flows to the introduction zone below by the step surface and attractive force.

It is a three-dimensional structure diagram of the present invention. It is a structure exploded view of the first embodiment of the present invention. FIG. 2 is a circuit diagram showing a circuit structure according to the first embodiment of the present invention. It is a structure instruction | indication figure of 2nd Example of this invention. It is a three-dimensional structure diagram of the third embodiment of the present invention. It is the three-dimensional structure figure of 4th Example of this invention. It is another three-dimensional structure figure of this invention.

As described above, the main object is to provide a hydroponic liquid supply apparatus that operates redundantly without losing moisture and nutrients necessary for the cultivated product and circulates and supplies nutrient liquid.

In order to achieve the above object, the hydroponic liquid supply device of the present invention comprises at least a board, a liquid supply base, and a motor. Among them, the board has a storage space in which a liquid supply base is installed. In addition, a stop plate is installed around the liquid supply table, and the liquid supply table is provided with a first ridge to form a liquid supply zone and an introduction zone that communicate with each other. A liquid supply flow path is formed by installing biconvex. In addition, a water collection area is installed in the body, the liquid supply area and the introduction area have stepped surfaces, and the motor connects the water collection area and the liquid supply area, respectively, and sucks the nutrient solution in the water collection area. Send to liquid supply area.

When in use, the board is further equipped with a plant stationary plate and LED light plate, the plant stationary plate provides for the local cultivation of plant seedlings, and the plant stationary plate has a liquid supply flow path fixedly installed, circulating circulation The line provides a nutrient solution necessary for seedling growth, and duplicate operation without losing the nutrient solution. Next, the purpose of the LED light plate is to adjust the temperature and light source, provide light and a stable environment in a timely manner, and accelerate the growth of plant seedlings.

The features of the present invention will be described with reference to examples and examples.

As shown in FIG. 1, the hydroponics liquid supply device of the present invention is composed of at least a board 10, a liquid supply stand 20, and a motor 30. Of which

The board 10 storage space is provided.

The liquid supply base 20 is installed in the board 10, and the liquid supply base 20 forms a liquid supply section 22 and an introduction section 23 by the first ridges 21 to communicate with each other, and the liquid supply section 22, a plurality of second ridges 221 are installed to form a liquid supply flow path 222, a stop plate 24 is installed around the liquid supply table 20, and is opposed to the liquid supply table 20 in the panel 10. A catchment area 25 will be installed on the other side.

The motor 30 is installed on the board 10, and the motor 30 is installed by connecting the water collection area 25 and the liquid supply area 22.

In the first embodiment of the present invention, as shown in FIGS. 2 and 3, the liquid supply section is a plane. The catchment area 25 is formed in the board 10 by the stop plate 24 and the liquid supply stand 20, the board 10 is provided with the plant stationary board 40 and the LED light board 50, and the board 10 is provided with the support frame 27. Then, the plant stationary plate 40 and the LED light plate 50 are fixed. Further, the plant placement plate 40 is provided with a plurality of perforations 41, used to localize and plant plant seedlings, and the plurality of perforations 41 are fixedly installed corresponding to the liquid supply flow path 222, and the plurality of second perforations 41 are also provided. The two ridges 221 are straight ridges 223 that form liquid supply flow paths 222 alternately in parallel. In use, the catchment zone contains the nutrient solution 60 and is lower than the first step surface 26. When the motor 30 is moved, the nutrient solution 60 in the catchment area 25 is inhaled and sent to the liquid supply area 22. The nutrient solution 60 flows through the liquid supply flow path 222 formed by the linear protrusions 223 crossing each other in parallel. Further, the linear protrusion 223 beneficially relaxes the flow rate of the nutrient solution 60 and gradually flows. 60 is active and plant seedlings fully absorb nutrients. Next, the nutrient solution 60 in the liquid supply flow path 222 flows in communication with the introduction section 23, and further the nutrient solution 60 is drawn into the catchment section 25 by the introduction section 23, and naturally from the first step surface 26 mainly by attraction. The nutrient solution 60 flows from the introduction zone 23 to the downstream catchment zone 25, and the nutrient solution 60 in the board 10 flows and circulates in the liquid supply zone 22, the introduction zone 23, and the catchment zone 25. Accelerate the growth of plant seedlings by providing timely light and stable environment without operating and losing enough.

In the second embodiment of the present invention, as shown in FIG. 4, the plurality of second protrusions 221 are arc-shaped protrusions 224, which are installed so as to cross each other in parallel to form a liquid supply flow path 222. When in use, the motor 30 is started to suck the nutrient solution 60 in the catchment section 25 and send it to the liquid supply section 22, and the nutrient solution 60 is a liquid supply flow formed by arc-shaped protrusions 224 arranged in a mutually intersecting manner. The nutrient solution 60 is active during the slow flow due to the flow through the path 222 and the arc-shaped protrusions 224 relieving the flow rate of the nutrient solution 60, so that the plant seedlings sufficiently absorb the nutrient.

In the third embodiment of the present invention, as shown in FIG. 5, the liquid supply area is a flat surface, a second step surface 28 is provided at the communication point between the liquid supply area 22 and the introduction area 23, and the nutrient solution 60 flows through the liquid supply flow. When flowing from the path 222 to the introduction zone 23, the second step surface 28 provides traction to the flow of the nutrient solution 60, assisting the nutrient solution 60 to flow from the liquid supply zone 22 to the introduction zone 23, and The nutrient solution 60 is drawn from the introduction zone 23 into the catchment zone 25, and the nutrient solution 60 naturally flows from the first step surface 26 to the catchment zone 25 below from the first step surface 26 by the attractive force. A circulation circuit is formed by the liquid supply zone 22, the introduction zone 23, and the catchment zone 25, and the nutrient solution 60 is not sufficiently operated and lost, and the growth of hydroponic plant cultivation is enhanced.

In the fourth embodiment of the present invention, as shown in FIG. 6, the liquid supply section 22 includes a step layer 225, the plurality of step layers 225 are opposed to the vertical surfaces of the plurality of second ridges 221, and The two ridges 221 form the liquid supply flow path 222 by installing the overflow portions 2211 so as to cross each other. The overflow unit 2211 has a predetermined altitude. When the nutrient solution 60 flows through the liquid supply channel 222, the overflow unit 2211 temporarily stores the nutrient solution 60 in the liquid supply channel 222, and the nutrient solution 60 stored for a while is stored in the overflow unit. The flow rate higher than 2211 flows downward and the flow velocity generated by the step between the staircase layers 225 causes the nutrient solution 60 in the liquid supply flow path 222 to flow toward the overflow portion 2211. The flow of the nutrient solution 60 has traction flow, helps the nutrient solution 60 flow from the liquid supply zone 22 to the introduction zone 23, and further draws the nutrient solution 60 from the introduction zone 23 into the catchment zone 25, The nutrient solution 60 forms a fluid circulation circuit in the liquid supply zone 22, the introduction zone 23, and the catchment zone 25, and does not lose the nutrient solution 60 by operating sufficiently, thereby increasing the growth of hydroponics plant cultivation.

In addition, as shown in FIGS. 6 and 7, the board 10 forms an installation portion 11 by the stop plate 24 and the liquid supply base 20, and a motor 30 is installed therein to prevent exposure to humidity. Alternatively, the board 10 is set high in order to prevent the motor 30 from being exposed to humidity by installing a fixed base (not shown). Alternatively, the motor 30 is a sink type motor installed in the catchment area 25. In addition, as shown in FIG. 6, the storage space of the board body 10 forms the figurine section 12 relative to the other side of the liquid supply table 20 by the stop plate 24, and puts an object to prevent humidity. Further, the motor installation unit 11 or the fixed base is provided at the same height as the catchment section 25 to give a flow rate to the nutrient solution 60 by the output of the motor and to help the nutrient solution 60 flow smoothly to the liquid supply section 22.

The motor leaving section has the same height as the water collection section and generates a force for smoothly flowing the nutrient solution 60 to the liquid supply section 22 by the motor output.

As described above, the present invention provides a viable hydroponics liquid supply device and applies for a utility model registration based on the law. The technical contents and technical features of the present invention have already been described above, but those skilled in the field may make replacements and modifications provided by the present invention that do not depart from the spirit of the present invention. Accordingly, the scope of protection of the present invention is not limited to the embodiments, and replacements and modifications that do not deviate from various types of the present invention are also included in the following claims.

DESCRIPTION OF SYMBOLS 10 Plate body 11 Installation part 12 Figurine section 20 Liquid supply stand 21 First convex strip 22 Liquid supply section 221 Second convex strip 2211 Overflow section 222 Liquid supply flow path 223 Straight convex 224 Arc-shaped convex 225 Stair layer 23 Introduction section 24 Stop plate 25 Catchment zone 26 First step surface 27 Support frame 28 Second step surface 30 Motor 40 Plant mounting plate 41 Perforation 50 LED light plate 60 Nutrient solution

Claims (13)

In the hydroponics liquid supply device, at least,
A board with a storage space;
Installed in the board, forming a liquid supply zone and an introduction zone with the first ridges, communicating with each other, and installing a plurality of second ridges to install a liquid supply flow path, stopping around A plate, and a liquid supply table on the other side of the panel opposite to the liquid supply table, and a water collection area,
A hydroponics liquid supply apparatus comprising a motor that is installed on the liquid supply table and connects the catchment area and the liquid supply area.   The liquid supply area is a flat surface, a plurality of second ridges are installed in an intersecting manner to form a liquid supply flow path, and the introduction area and the catchment area have a first step surface. Hydroponics liquid supply device.   The hydroponics liquid supply apparatus according to claim 2, wherein the liquid supply section and the introduction section include a second step surface.   The liquid supply section includes a staircase layer, the plurality of staircase layers are opposed to the vertical surfaces of the plurality of second ridges, and the plurality of second ridges are installed so as to cross each other by installing an overflow portion. 2. The hydroponic liquid supply apparatus according to claim 1, wherein a liquid supply flow path is formed, and the overflow portion has a predetermined altitude.   The hydroponics liquid supply apparatus according to claim 3 or 4, wherein the plurality of second ridges are linear protrusions, and are arranged alternately in parallel to form a liquid supply flow path.   5. The hydroponic liquid supply apparatus according to claim 3, wherein the plurality of second ridges are arc-shaped convex, and are alternately installed to form a liquid supply flow path.   The hydroponic liquid supply apparatus according to claim 3 or 4, wherein the board is provided with a plant stationary plate and a LED light plate is fixedly installed.   The panel body is provided with a plant stationary plate, the LED light plate is fixed, and the panel body is provided with a plurality of support frames, and the plant stationary plate is provided with a plurality of support frames. The LED light plate is fixed by the plurality of support frames, and is further installed above the plant placement plate. The plant placement plate is provided with a plurality of perforations, and a vegetable seedling is placed and fixed there. The hydroponic liquid supply apparatus according to claim 3 or 4, wherein the plurality of perforations correspond to a liquid supply flow path.   The hydroponic liquid supply apparatus according to claim 3 or 4, wherein the storage space for the board body is provided with an figurine section relative to the liquid supply stand different side.   The hydroponic liquid supply apparatus according to claim 3 or 4, wherein the board is provided with an installation portion and the motor is installed there.   The hydroponic liquid supply apparatus according to claim 3 or 4, wherein the board is provided with a fixed base to lift the motor high.   The hydroponic liquid supply apparatus according to claim 3 or 4, wherein the motor is a sink type motor.   The hydroponic liquid supply apparatus according to claim 3 or 4, wherein the water catchment zone contains a nutrient solution.